Join us at our COMSOL Day for the Washington, D.C., region and participate in panel discussions, product demonstrations, chats with our technical and sales staff, and the exchanging of ideas with other simulation specialists. COMSOL Day Washington, D.C., will showcase many use cases from and for industry and governmental organizations. Feel free to invite your colleagues and contacts too.
View the schedule and register for free today.
This introductory demonstration will show you the fundamental workflow of the COMSOL Multiphysics® modeling environment. We will cover all of the key modeling steps, including geometry creation, setting up physics, meshing, solving, and postprocessing.
Come to this session to hear about the new features in COMSOL Multiphysics® version 5.4 and to learn how they can be incorporated into your existing multiphysics models.
In this guided, hands-on session, we will walk you through an example of modeling fluid flow and give a quick overview of using the CFD Module for laminar, turbulent, and high Mach number flow; non-Newtonian, multiphase, and nonisothermal flows; and flow in mixers. Learn how to accurately model thermal characteristics of systems that include heat transfer by conduction, convection, and radiation. We will review how you can model and optimize systems that include phase change, bioheating, electronic cooling, thermally induced stresses, and thin thermal barriers.
Learn how to model electromagnetic heating for low- and high-frequency electromagnetics applications. Important electromagnetic heating phenomena covered include Joule heating, induction heating, RF heating, and laser heating.
Find out how COMSOL is revolutionizing computational modeling with the Application Builder, COMSOL Server™, and COMSOL Compiler™. These tools allow you to quickly and easily deploy customized, standalone solutions that match your specific simulation needs.
Combining electromagnetics simulations with the effects of heat transfer, structural mechanics, and fluid flow is important to get a competitive advantage in designing next generation electromagnetic and electronics components. In this session, a panel of users from industry and COMSOL will share their experiences working with modeling and simulation, as well as answer technical questions related to the use of COMSOL Multiphysics®.
Learn about the Acoustics Module and how it can be used to model sounds waves, their propagation, and their interaction with solids at both small and large scales. Use cases include nondestructive testing, speakers, microphones, and sonar.
The design requirements on transducers within acoustics and MEMS applications are continuously more challenging to meet. Whether for smart devices or high-power SONAR applications, the need for simulation is as great as ever. In this session, a panel of users from industry and COMSOL will share their experiences working with modeling and simulation and answer technical questions related to the use of the COMSOL Multiphysics® software.
The AC/DC Module is used for modeling Maxwell's equations in the low-frequency regime. Find out how this tool applies to the modeling of resistive and capacitive devices, inductors and coils, as well as motors and magnets.